| Assessment Year | 1996 |
|---|---|
| Principal Product | Aerospace Composite |
| NAICS |
n/a
|
| SIC | 2295: Coated Fabrics, Not Rubberized |
| Sales Range | $5 M to 10M |
| # of Employees | 90 |
| Plant Area |
80,000
ft2
|
| Annual Production | 15
ton
|
| Production Hrs. Annual | 2,080
hrs
|
| Location (State) | Arizona |
Facility Energy Cost and Usage
| Source | Yearly Cost | Usage | Unit Cost | |
|---|---|---|---|---|
| Electricity Usage | $251,313 | 4,955,745 |
kWh
|
$0.051 |
| Electricity Demand | $76,682 | 9,920 |
kW-mo/yr
|
$7.73 |
| Natural Gas | $32,893 | 6,270 |
MMBtu
|
$5.25 |
| TOTAL YEARLY COSTS | - | |||
| RECOMMENDED SAVINGS* | $73,648 |
See individual recommendations below
*Non-energy impacts included in savings.
|
||
| IMPLEMENTED SAVINGS* | $66,332 | |||
Recommendations
| # | Description | Yearly Savings* | Imp'd Cost* | Status | Electricity Usage Savings | Electricity Demand Savings | Natural Gas Savings | Other Liquid (haz) Savings | Ancillary Material Cost Savings |
|---|---|---|---|---|---|---|---|---|---|
| 01 | 2.6231: Utilize controls to operate equipment only when needed | $490 | $150 |
$490
9,965
kWh
|
- | - | - | - | |
| 02 | 2.4314: Use synthetic lubricant | $468 | $124 |
$160
3,224
kWh
|
$49
-
kW-mo/yr
|
- |
$268
-
gal
|
$(-9.0) | |
| 03 | 2.4231: Reduce the pressure of compressed air to the minimum required | $1,596 | - |
$861
17,585
kWh
|
$735
-
kW-mo/yr
|
- | - | - | |
| 04 | 2.7135: Install occupancy sensors | $306 | $300 |
$306
6,155
kWh
|
- | - | - | - | |
| 05 | 2.7241: Install outside air damper / economizer on hvac unit | $38,756 | $1,750 |
$38,756
710,141
kWh
|
- | - | - | - | |
| 06 | 2.2625: Chill water to the highest temperature possible | $11,824 | - |
$5,142
104,338
kWh
|
$1,534
-
kW-mo/yr
|
$5,148
-
MMBtu
|
- | - | |
| 07 | 2.2614: Use cooling tower or economizer to replace chiller cooling | $4,044 | $20,000 |
$4,044
82,063
kWh
|
- | - | - | - | |
| 08 | 2.7423: Reduce heat gain by window tinting | $2,966 | $10,750 |
$2,966
60,082
kWh
|
- | - | - | - | |
| 09 | 2.4133: Use most efficient type of electric motors | $3,991 | $7,201 |
$2,043
41,325
kWh
|
$1,948
-
kW-mo/yr
|
- | - | - | |
| 10 | 2.4111: Utilize energy-efficient belts and other improved mechanisms | $228 | - |
$117
2,345
kWh
|
$111
-
kW-mo/yr
|
- | - | - | |
| 11 | 2.4146: Use adjustable frequency drive or multiple speed motors on existing system | $4,557 | $11,870 |
$2,409
48,945
kWh
|
$2,148
-
kW-mo/yr
|
- | - | - | |
| 12 | 2.4146: Use adjustable frequency drive or multiple speed motors on existing system | $2,967 | $8,690 |
$1,558
31,653
kWh
|
$1,409
-
kW-mo/yr
|
- | - | - | |
| 13 | 2.1233: Analyze flue gas for proper air/fuel ratio | $1,455 | $1,200 | - | - |
$1,455
-
MMBtu
|
- | - | |
| TOTAL RECOMMENDED | $73,648 | $62,035 |
$58,852
1,117,821
kWh
|
$7,934
-
kW-mo/yr
|
$6,603
-
MMBtu
|
$268
-
gal
|
$(-9.0) | ||
| TOTAL IMPLEMENTED | $66,332 | $30,985 |
$51,536
969,521
kWh
|
$7,934
-
kW-mo/yr
|
$6,603
-
MMBtu
|
$268
-
gal
|
$(-9.0) | ||
| Yearly Savings* | Imp'd Cost* | Electricity Usage Savings | Electricity Demand Savings | Natural Gas Savings | Other Liquid (haz) Savings | Ancillary Material Cost Savings | |||
*Savings and costs are best estimates based on the center's site visit, associated engineering analysis, and typical capital and labor costs